Nature Communications (Jul 2024)

The structural basis of the activation and inhibition of DSR2 NADase by phage proteins

  • Ruiwen Wang,
  • Qi Xu,
  • Zhuoxi Wu,
  • Jialu Li,
  • Hao Guo,
  • Tianzhui Liao,
  • Yuan Shi,
  • Ling Yuan,
  • Haishan Gao,
  • Rong Yang,
  • Zhubing Shi,
  • Faxiang Li

DOI
https://doi.org/10.1038/s41467-024-50410-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract DSR2, a Sir2 domain-containing protein, protects bacteria from phage infection by hydrolyzing NAD+. The enzymatic activity of DSR2 is triggered by the SPR phage tail tube protein (TTP), while suppressed by the SPbeta phage-encoded DSAD1 protein, enabling phages to evade the host defense. However, the molecular mechanisms of activation and inhibition of DSR2 remain elusive. Here, we report the cryo-EM structures of apo DSR2, DSR2-TTP-NAD+ and DSR2-DSAD1 complexes. DSR2 assembles into a head-to-head tetramer mediated by its Sir2 domain. The C-terminal helical regions of DSR2 constitute four partner-binding cavities with opened and closed conformation. Two TTP molecules bind to two of the four C-terminal cavities, inducing conformational change of Sir2 domain to activate DSR2. Furthermore, DSAD1 competes with the activator for binding to the C-terminal cavity of DSR2, effectively suppressing its enzymatic activity. Our results provide the mechanistic insights into the DSR2-mediated anti-phage defense system and DSAD1-dependent phage immune evasion.